Digital receipt for use with an interoperable keychest

ABSTRACT

There is provided a system and method for a digital receipt for use with an interoperable keychest. There is provided a method for online registration of a digital receipt associated with a content, comprising performing a transaction to obtain from a first distributor the content encrypted by a title key and a first digital rights management (DRM) license usable with the first distributor to access the title key, receiving from the first distributor the digital receipt associated with the content including information relevant to the transaction, and transmitting the digital receipt to the interoperable keychest acting as a central key repository (CKR) for an online registration of the digital receipt associated with the content. Authorized media distributors may then generate new DRM licenses using the CKR, enabling interoperable content playback of the same universal file across different media distributors and clients.

This application is a Continuation of U.S. application Ser. No.12/460,004, filed Jul. 10, 2009, which is hereby incorporated byreference in its entirety.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to digital media. Moreparticularly, the present invention relates to digital rights managementfor digital media.

2. Background Art

Although digital media distribution is growing in popularity andbecoming a viable alternative to purchasing retail physical media formany consumers, there are still significant barriers present beforeconsumers can wholly embrace digital media without reservations. Many ofthese reservations revolve around the limited interoperability betweendifferent playback devices or service providers, and the possibilitythat media files may become inoperable in the future due to new formatsor protection schemes. For example, competing digital media distributionchannels may use incompatible media formats and proprietary DRM systems,and the closing or termination of video offerings due to financialdifficulties or company ownership changes may leave consumers with mediafiles that cannot be consumed anymore.

Thus, there is a need for interoperable protected contents that cansurvive changes in the distribution market and provide continued serviceto consumers regardless of the original distribution channel used andthe original media file format. In this manner, consumers can easilyswitch service providers, use protected media across a wide variety ofplayback devices, and remain confident that playback of protectedcontent is ensured into the future. Similarly, content producers canremain confident of relying on digital distribution of protected mediaas a viable and sustainable business model. However, to ensure suchinteroperability in the most straightforward method by simply dictatinga single DRM methodology, many existing DRM systems and distributionchannels may need to radically modify established and proven operatingprocedures, a proposition that may find little enthusiasm in themarketplace. In addition, this would create a single security point ofvulnerability.

Accordingly, there is a need to overcome the drawbacks and deficienciesin the art by providing a way for digital media to interoperate acrossdifferent service providers and media devices in a manner that requiresminimal disruptive changes to existing digital rights managementparadigms, distribution models and consumption models.

SUMMARY OF THE INVENTION

There are provided systems and methods for a digital receipt for usewith an interoperable keychest, substantially as shown in and/ordescribed in connection with at least one of the figures, as set forthmore completely in the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The features and advantages of the present invention will become morereadily apparent to those ordinarily skilled in the art after reviewingthe following detailed description and accompanying drawings, wherein:

FIG. 1 presents a system generating files for use with an interoperablekeychest, according to one embodiment of the present invention;

FIG. 2 presents a system providing a client with a digital receipt foruse with an interoperable keychest, according to one embodiment of thepresent invention;

FIG. 3 presents a system for obtaining protected digital rightsmanagement (DRM) licenses through an interoperable keychest forinteroperability between different DRM systems, according to oneembodiment of the present invention;

FIG. 4a presents a system for playback of protected media using aninteroperable keychest independent of an original issuing mediadistributor, according to one embodiment of the present invention;

FIG. 4b presents a system for redemption of secondary protected mediausing an interoperable keychest, according to one embodiment of thepresent invention;

FIG. 5 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which online registration of adigital receipt associated with a content can be used with a central keyrepository (CKR) to enable interoperable playback of the contentindependent of an initial distributor;

FIG. 6 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which media contents may bedistributed to media distributors;

FIG. 7 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which a central key repository(CKR) can provide content access authorizations to media distributors;and

FIG. 8 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which a media distributor canobtain access to content access authorizations from a central keyrepository (CKR).

DETAILED DESCRIPTION OF THE INVENTION

The present application is directed to a system and method for auniversal file packager for use with an interoperable keychest. Thefollowing description contains specific information pertaining to theimplementation of the present invention. One skilled in the art willrecognize that the present invention may be implemented in a mannerdifferent from that specifically discussed in the present application.Moreover, some of the specific details of the invention are notdiscussed in order not to obscure the invention. The specific detailsnot described in the present application are within the knowledge of aperson of ordinary skill in the art. The drawings in the presentapplication and their accompanying detailed description are directed tomerely exemplary embodiments of the invention. To maintain brevity,other embodiments of the invention, which use the principles of thepresent invention, are not specifically described in the presentapplication and are not specifically illustrated by the presentdrawings.

FIG. 1 presents a system generating files for use with an interoperablekeychest, according to one embodiment of the present invention.Environment 100 of FIG. 1 includes title owner 110, title owner ID(identifier) 111, title ID 116, certificate authority 120, preparer 130,keychest 160, and media distributor 170. Title owner 110 includes title115 and title metadata 118. Certificate authority 120 includescertificate 121. Certificate 121 includes keychest public key 122.Preparer 130 includes key generator 131, title key 132, universal filepackager 135, universal file 140, and KeyInfo file 150. Universal file140 includes title ID 116, metadata 117, encrypted title 145, andkeychest URL (Uniform Resource Locator) 146. KeyInfo file 150 includestitle owner ID 111, title ID 116, encryption data 153, and encryptedtitle key 152. Keychest 160 includes processor 158 and memory 159.Memory 159 includes preparer API (Application Program Interface) 161,KeyInfo database 162, consumer database 163, transaction database 164,keychest private key 165, distributor public key database 166;distributor database 167, and provider API 157. Media distributor 170includes transcribed KeyInfo file 151, distributor private key 175, andnative DRM (digital rights management) system 172.

Title owner 110 may comprise the producer, broadcaster, copyrightholder, author, or assignee of title 115, such as an individual artistor composer, a media group, a film production studio, an animationstudio, a television studio, or a movie distributor. Title 115 may thencomprise a creative media work or project, such as a musical compositionor album, a radio program, a video clip, a full-length film oranimation, an episode of a drama or television series, an interactivevideogame, or any other type of audiovisual work or content. Titlemetadata 118 may then be provided to describe title 115 in more detail,such as providing human readable title names, specific media categories,content genres, media formats, ratings, and other information helpfulfor cataloging and identifying title 115. While title metadata 118 isshown as provided by title owner 110 in FIG. 1, alternative embodimentsmay instead use preparer 130 or another third party to generate titlemetadata 118.

Additionally, title owner 110 and title 115 are each uniquely identifiedby title owner ID 111 and title ID 116, respectively. These identifiersmay also be included within title metadata 118. Although any suitablealgorithm for selecting unique identifiers may be adopted, title ID 116may be particularly suited to a combination of an International StandardAudiovisual Number (ISAN), if available, and a Universally UniqueIdentifier (UUID) based on a cryptographic function such as Secure HashAlgorithm 1 (SHA-1). In this manner, disparate title owners not incommunication with each other can still generate title IDs with a strongassurance of uniqueness. Alternatively, a centralized body may dispenseunique identifiers to requesting parties, guaranteeing uniqueness bymaintaining a database of all identifiers.

Once the above identifiers, metadata, and title files are in order,title owner 110 may convey them to universal file packager 135 ofpreparer 130 for integration into distribution channels serving thegeneral public. This conveyance to preparer 130 may be done by anysuitable means of communication, preferably in a secure manner tomitigate the risk of third party leaks. For example, various protectedInternet protocols might be utilized, such as secure FTP (File TransferProtocol), secure sockets layer (SSL), secure shell (SSH), or anotherprotocol. Alternatively, data may be written onto physical media, to bedelivered by mail or in person to preparer 130.

Title owner 110 and preparer 130 are shown as separate entities in FIG.1, as the process of preparing a title for encoding and distributionmight be outsourced to a third party facility for efficiency or otherreasons. However, alternative embodiments may have title owner 110 alsoassuming the functions of preparer 130, which may be more convenient forsmaller media unit operations. In this case, title owner 110 andpreparer 130 are owned by the same parent and their functions might beconsolidated into a single server or computing cluster.

Key generator 131 provides encryption keys to universal file packager135 to support protection of contents through encryption. Withoutapplying some kind of protection to title 115, it becomes difficult toenforce license terms and prevent unauthorized copying since consumershave direct access to unprotected media files. Thus, as shown in FIG. 1,key generator 131 generates a symmetric encryption key, title key 132,to both encrypt and decrypt title 115. By limiting access to title key132 to authorized media applications having the proper DRM licenses,consumers can still enjoy viewing or listening to title 115 withouthaving direct access to title 115 in unprotected form.

Although longer key lengths and stronger encryption algorithms for titlekey 132 may provide greater security against circumvention techniques,decoding complexity may also pose an important counter consideration.This consideration may be particularly acute for mobile devices havinglimited battery life, memory, and processing resources. Thus, forencrypting title key 132, a balanced compromise such as the AdvancedEncryption Standard (AES) may be chosen to provide reasonably strongsecurity with fast decoding times.

In order to securely convey title key 132 from preparer 130 for accessby keychest 160, an asymmetric cryptography key pair, generated bycertificate authority 120, is used as shown in FIG. 1. The key paircould also be generated by keychest 160 and the certificate issued bycertificate authority 120. Public and private key pairs may, forexample, use 2048 bit RSA keys in accordance with Public-KeyCryptography Standards #1 (PKCS#1). The public key of the key pair isincluded in a digital certificate 121. By retrieving keychest public key122 from certificate 121, universal file packager 135 can encrypt titlekey 132 using keychest public key 122, resulting in the encrypted titlekey 152, such that only keychest 160, the owner of correspondingkeychest private key 165, may decrypt encrypted title key 152.Certificate authority 120 acts as the trusted third party in FIG. 1,vouching that keychest public key 122 provided within certificate 121properly binds to the entity known as keychest 160.

Certificate authority 120 may for example comply with the X.509 Version3 certificate standard. In order to verify the identity of certificateauthority 120, preparer 130 may also have a preloaded set ofcertificates vouching for the identity of trusted third parties such ascertificate authority 120. Mutual authentication may also be implementedso that certificate authority 120 only responds to authorized preparers,media distributors or service providers, and other involved parties.Although only a single certificate authority is shown in FIG. 1,alternative embodiments may use a hierarchical system of certificateauthorities or an alternative trust system other than X.509 such as apeer moderated web of trust.

In this manner, keychest 160 acts as a centralized key repository (CKR)holding title keys within KeyInfo files in encrypted form. Throughpreparer API 161, content preparers such as preparer 130 can submitencrypted title keys in KeyInfo file containers such as KeyInfo file150. These KeyInfo files, containing encrypted title keys such asencrypted title key 152, encryption data or metadata such as encryptiondata 153, and associated content information such as title owner ID 111and title ID 116, may be deposited in a database such as KeyInfodatabase 162. For preparer 130 to access preparer API 161, standard webservices may be exposed by keychest 160 using Simple Object AccessProtocol (SOAP) and Hypertext Transfer Protocol Secure (HTTPS) usingTransport Layer Security (TLS) with Diffie-Hellman in accordance withPKCS#3 for key exchange. This same manner of secure communication orvariants using different parameters may also be used for othercommunication paths shown in FIG. 1 and the following figures.Additionally, security measures such as limiting incoming InternetProtocol (IP) address ranges or Media Access Control (MAC) addressranges to well known values may also be implemented to further protectagainst unauthorized access.

As previously discussed, encrypted title key 152 is encrypted usingkeychest public key 122. Since keychest 160 is the owner of thecorresponding private key, keychest private key 165, it may freelydecrypt and access all title keys submitted to KeyInfo database 162 inthe above described fashion. Using processor 158 to interpret requestsreceived via preparer API 161 and provider API 157 in memory 159,keychest 160 can provide robust key storage and distribution servicesfor authorized preparers and media distributors, also referred to asservice providers or content providers. In the other direction, throughprovider API 157, authorized distributors such as media distributor 170can request these title keys in encrypted form using their ownasymmetrical key pair to securely generate DRM licenses for delivery toconsumer media applications and devices. As such, the original KeyInfofiles from KeyInfo database 162 are decrypted and encrypted, ortranscribed, using an encryption key applicable for each particularmedia distributor to generate transcribed KeyInfo files such astranscribed KeyInfo file 151.

In FIG. 1, this KeyFile transcription is enabled by having keychest 160gather the public keys of all media distributors within distributorpublic key database 166, with each media distributor such as mediadistributor 170 owning their own corresponding private key, such asdistributor private key 175. Media distributors may generate their ownkey pairs using a standard public key infrastructure (PKI) approach.However, alternative embodiments may use alternative encryptionarrangements, such as wherein keychest 160 generates public/private keypairs and provides the private keys to each media distributor using asecure communication channel. As before with keychest public key 122,certificate authority 120 or another trusted third party may be utilizedto provide trusted certificates ensuring legitimate bindings betweenpublic keys and their associated referenced identities.

As shown in keychest 160, several additional databases are availableincluding consumer database 163, transaction database 164, distributordatabase 167, offer database 168, and preparer database 169. Thesedatabases may be utilized to implement various business rules from thekeychest side, thereby registering media transactions performed byconsumers and the associated rights, registering consumer authenticationdata, and ensuring that only authorized providers and mediadistributors, pursuant to various business agreements, can interact withkeychest. For example, after every successful online transaction, arecord might be stored in transaction database 164, indicating the dateand time of sale, the price paid, the type of purchase whether rental,permanent purchase, redemption, or subscription, whether a providedredemption code has been used multiple times, relevant identifiers suchas a consumer, client, device ID, and other details. Thus, keychest 160may be able to enforce rental time periods, redemption countlimitations, and other business rules as necessary. Distributor database167 may track which media distributors are privileged to access whichKeyInfo files, as keychest 160 may support several different affiliatedor non-affiliated media distributors with disparate content licensingagreements. Consumer database 163 may serve as a rights repositoryallowing consumers to access and unlock protected media files withoutbeing restricted to a particular media distributor, as discussed furtherin FIG. 2 below, and also include authentication information to allowconsumers to authenticate across multiple distributors using a single ormultiple authentication schemes, such as proprietary authenticationscheme from unique distributors or a more open framework like OpenID.Additionally or alternatively, keychest 160 might include a devicedatabase, not shown in FIG. 1, which lists media devices, which could beassociated to a particular consumer, allowing for models based onbinding to a particular device rather than to particular consumers orallowing for models based on binding to both the device and theconsumer. Generally speaking, the device database works similarly toconsumer database 163 and may be associated to it. Offer database 168may associate titles with specific usage rules to support multiplebusiness models such as rental, subscription, and purchase, for example.Preparer database 169 may ensure that only authorized media preparerscan upload KeyInfo files into keychest 160.

Switching focus from KeyInfo file 150 to universal file 140, universalfile 140 is also generated by universal file packager 135 fordistribution to media distributors and eventually to consumers. The name“universal file” describes the property that even if media distributorsuse different DRM systems, the same file is distributed to consumers andis interoperable across different media distributors with the help ofthe CKR, keychest 160. As shown in FIG. 1, title 115 is encrypted withtitle key 132 to create encrypted title 145, which is accompanied withidentifying data including title ID 116, metadata 117, and keychest URL146. Metadata 117 may contain, for example, components of title metadata118. Keychest URL 146 acts as a pointer or network address to directwhere to find the keychest storing the associated KeyInfo file 150 sothat encrypted title 145 can be decoded using a title key stored inKeyinfo file 150. In the case of FIG. 1, keychest URL 146 would point tokeychest 160. It should be noted that the keychest URL might simplypoint to a redirection server using URL redirection to flexibly redirectkeychest communications. Additionally, the URL form is chosen to tiewith web services accessible over the Internet using SOAP, butalternative network addressing protocols could also be used as well. Thecomponents of universal file 140 may be embedded in a standard containerformat such as a MPEG-4 Part 14 or MP4 container file. Additionally, iftitle 115 is provided in an uncompressed format, preparer 130 may applyvideo and audio compression before encrypting title 115, using forexample MPEG-4 part 10 or H.264. After universal file 140 is generated,it may be provided to media distributor 170.

Once media distributor 170 receives universal file 140, it mayimmediately request the associated KeyInfo file from keychest URL 146,or may delay the request until a consumer or client actually requestsuniversal file 140. In either case, media distributor 170 querieskeychest 160, using for example SOAP over HTTPS as previously discussed,to request information contained in the relevant KeyInfo file associatedwith title ID 116. Keychest 160 may then search KeyInfo database 162 todiscover KeyInfo file 150 stored there with the same title ID 116, applyall relevant business logic rules to determine whether permission todistribute the file should be granted, and provide transcribed KeyInfofile 151 if such a determination is positive. Transcribed KeyInfo file151 may look similar to KeyInfo file 150, with the exception thatencrypted title key 152 is encrypted with the public key of mediadistributor 170, rather than the public key of keychest 160, keychestpublic key 122. As previously discussed, the transcription step may besupported by keychest 160 collecting in advance the public keys of allmedia distributors into distributor public key database 166.

To avoid constantly retrieving newly transcribed KeyInfo files fromkeychests, media distributors might store a local cache of transcribedKeyInfo files to avoid unnecessarily burdening keychest resources. Tokeep the cached KeyInfo files updated, a request for changes occurringsince previous KeyInfo accesses might be requested from keychestsperiodically or on demand. Alternatively, keychests might proactivelysend updates to media distributors.

Once media distributor 170 has both transcribed KeyInfo file 151 anduniversal file 140, it may use them in conjunction with distributorprivate key 175 and native DRM system 172 to service media files toclients in a protected manner with minor modification, if any, to anyexisting DRM systems infrastructure that may already be in place formedia distributor 170. Media distributor 170 can use its own privatekey, distributor private key 175, to access title key 132 fromtranscribed KeyInfo file 151 and feed such title key 132 to native DRMsystem 172. The native DRM system 172 can then generate the appropriateDRM license containing the usage rules and title key 132 encrypted usingits own security protocol. Once the consumer receives the universal file140 and the native DRM license, it can consume the media contained inthe universal file 140 as allowed by the usage rules.

In this manner, the barrier of entry for adopting the universal fileformat and the interoperable keychest is minimized for participatingmedia distributors, encouraging wider distribution channel adoption andproviding all the benefits of enhanced interoperability to consumers. Byhelping address interoperability and availability concerns regardingdigitally distributed media and by providing a digital receipt withinthe control of the consumer as described below in FIG. 2, consumers mayfeel empowered rather than restricted by digital distribution, which mayin turn translate to higher sales and greater consumer satisfaction.

Although title owner 110, title 115, certificate authority 120, preparer130, keychest 160, and media distributor 170 only have single instancesin FIG. 1, alternative embodiments may include several instances of eachentity. For example, universal file 140 could encapsulate severaldifferent titles as part of a compilation, album, or as alternativetracks. Similarly, KeyInfo file 150 may store several associated titlekeys. Keychests can also be scaled to suit particular organizationalneeds. For example, a large studio having many movie units andsubdivisions may decide to dedicate a distinct keychest for every studiodivision, or may prefer to have all divisions served by one largeconsolidated keychest. Alternatively, particularly for smaller studios,several different studios or companies might share a single keychest, oroutsource keychest operation and maintenance to a third party entity.Another possibility is one large centralized keychest operated by athird party, with studios submitting KeyInfo files to the centralizedkeychest. As mentioned above, URL redirection might also be used forflexible keychest redirection, enabling server load balancing, fastmigration, and other features. Keychests might also share informationwith other keychests if the proper agreements and security proceduresare in place. In other words, keychests can be as centralized ordecentralized as desired, but a centralized keychest having access to alarge KeyInfo database may provide more efficient service to clientshaving accounts with multiple media distributors.

FIG. 2 presents a system providing a client with a digital receipt foruse with an interoperable keychest, according to one embodiment of thepresent invention. Environment 200 of FIG. 2 includes keychest 260,media distributor 270, distributor ID 271, client 280, client ID 281,shared client ID 286, display 288, and backup storage 289. Keychest 260includes KeyInfo database 262, consumer database 263, transactiondatabase 264, keychest private key 265, distributor public key database266, distributor database 267, offer database 268, client API 256, andprovider API 257. Since in FIG. 2, there are no interactions withpreparers, a corresponding preparer API 161 and preparer database 169from FIG. 1 are omitted from FIG. 2 for simplicity, but they may stillexist within keychest 260. Media distributor 270 includes universal file240, transcribed KeyInfo file 251, native DRM server 272, DRM license273, distributor private key 275, and processor 276. Universal file 240includes title ID 216, metadata 217, encrypted title 245, and keychestURL 246. Transcribed KeyInfo file 251 includes title owner ID 211, titleID 216, and encrypted title key 252. DRM license 273 includes title ID216, encrypted title key 274, client ID 281, and usage rules 277. Client280 includes native DRM client 282, client media application 283,protected media path decoding engine 299, and digital receipt 285.Digital receipt 285 includes title ID 216, distributor ID 271, client ID281, shared client ID 286, consumer ID 284, and transaction info 287.With regards to FIG. 2, it should be noted that keychest 260 correspondsto keychest 160 from FIG. 1 and that media distributor 270 correspondsto media distributor 170 from FIG. 1. Although keychest 260 of FIG. 2does not depict a processor or memory as in keychest 160 of FIG. 1, itmay be assumed they exist to support the operation of the APIs and otherlogical operations of keychest 260.

FIG. 2 shifts the focus from the title owners and preparers in FIG. 1 tothe media distributors and clients in FIG. 2. More specifically, FIG. 2illustrates how a consumer or client can actually access a media filefor eventual playback on display 288 using the universal file, KeyInfofile, and CKR or keychest concepts introduced in FIG. 1. Additionally,FIG. 2 introduces the concept of the digital receipt, shown as digitalreceipt 285, which can act as a proof of purchase or proof oftransaction for reactivating protected media contents even if the clientloses the originally retrieved protected media files or if the clientswitches media distributors, for example.

The contents of universal file 240 and transcribed KeyInfo file 251 havealready been described in some detail through the correspondinguniversal file 140 and transcribed KeyInfo file 151 from FIG. 1.Transcribed KeyInfo file 251 may have been provided to media distributor270 by an entity having a distribution agreement with media distributor270, such as an entity similar to title owner 110 of FIG. 1, along withkeychest 260 for the transcription step. Processor 276 of mediadistributor 270 may be used with distributor private key 275 to decryptencrypted title key 252 for use with native DRM server 272. Native DRMserver 272 executing on processor 276 may then use all the inputsindicated in FIG. 2 to generate DRM license 273 for distribution toauthorized clients requesting universal file 240. Encrypted title key274 may be protected using a protection system provided by native DRMserver 272, effectively changing the encryption partner of mediadistributor 270 from keychest 260 to client 280. This step might beviewed like an additional transcription step similar to keychest 260providing KeyInfo files transcribed for specific media distributors, butwith media distributor 270 instead providing DRM licenses withtranscribed title keys for specific clients.

Examining DRM license 273, encrypted title key 274 is included,corresponding to a title key usable to decrypt universal file 240. DRMlicense 273 also includes identifying information, including the clientthe DRM license applies to, or client ID 281, and the associated mediatitle or universal file, or title ID 216. Additional information couldalso be embedded with DRM license 273, such as distributor ID 271,shared client ID 286, consumer ID 284, usage rules 277, and transactioninfo 284 as indicated in FIG. 2.

Moving to client 280, client 280 might comprise a personal computer, amedia player, a set-top box, a videogame console, a mobile phone, aportable media player, or any other device for interfacing with mediadistributor 270. Client 280 may also include client media application283 for browsing, purchasing, playback, and other transactions withdigital media provided by media distributor 270. After the consumerdecides to purchase, rent, or otherwise obtain universal file 240through a digital transaction for playback on client 280, mediadistributor 270 may process the transaction by interfacing with afinancial institution to charge an agreed amount or internallysubtracting an agreed amount of prepaid points or other currency,generate DRM license 273 as described above, and provide both universalfile 240 and DRM license 273 to client 280 via native DRM server 272.Additionally, a record of the digital transaction may be deposited intransaction database 264 via provider API 257 of keychest 260.

After client 280 receives both universal file 240 and DRM license 273,client 280 can use DRM license 273 in conjunction with native DRM client282 to decrypt encrypted title 245 within universal file 240 forconsumption by playback using protected media path decoding engine 299outputting to display 288, which may also include speakers for audiocontent. Therefore, the consumer may view the requested media on display288.

While having universal file 240 and DRM license 273 allows client 280 toplayback encrypted title 245 while native DRM client 282 is able tointerface with DRM server 272, there may be situations where one or moreof the above elements are missing to client 280, where the user needs touse a different client entirely, or where the user needs to use adifferent media distributor. To provide for these contingencies, mediadistributor 270 may also provide client 280 with a secure digitalreceipt 285. If the consumer needs to address the situations listedabove, digital receipt 285 can be retrieved and presented to analternative media distributor or to keychest 260 as a proof of purchaseto obtain the universal file again, to obtain a new DRM license, or evenboth, as the situation may demand.

As shown in FIG. 2, client 280 proactively safeguards digital receipt285 by copying to backup storage 289, which might comprise a UniversalSerial Bus (USB) storage device, and registering with the relevant CKRor keychest 260 via client API 256 for depositing the digital receiptinto consumer database 263. For example, a web interface may be providedto allow direct uploading of digital receipts to keychest 260 via clientAPI 256, which may expose HTTPS protected SOAP web services similar toprovider API 257. A third party may provide and maintain backup storage289, for example by providing an online backup service or web accessiblee-mail server. In particular, if digital receipts are provided to usersvia registered e-mail addresses, user e-mail accounts may effectivelysubstitute as a backup repository for digital receipts.

Alternatively, after a user consummates a digital transaction, clientmedia application 283 might prompt the user to register the digitalreceipt online with keychest 260 automatically. Keychest 260 may thenprovide a return value to client 280, indicating either success orfailure of the digital receipt registration process.

Digital receipt 285 contains several fields related to the identity ofthe user leading to the creation of the digital receipt. Client ID 281identifies a consumer or device in relation to a particular DRM systemimplemented by native DRM client 282 and native DRM server 272. ConsumerID 284 and distributor ID 271 indicates the particular consumer inrelation to a specific media distributor, whereas shared client ID 286,an optional component, may globally identify the user in a generalsense. Shared client ID 286 may be tied to an external userauthentication system, such as OpenID, which is usable to authenticateacross several media distributors, rather than just a single one. Sincenot all users may possess such a shared client ID, it may be omitted forsuch users, or a substitute identifier might be created and provided forthe user. However, if shared client ID 286 is provided, then keychest260 may be able to identify all receipts within consumer database 263attributable to the consumer regardless of the media distributor, whichmay prove to be helpful for users having large media collections acrossseveral different media distributors.

Digital receipt 285 also contains several fields related to thetransaction creating the digital receipt. Title ID 216 indicates thespecific universal file referenced by the digital receipt, whereastransaction info 287 may contain specific information regarding thetransaction such as a transaction date, a transaction type or an offerID, and metadata regarding the content referenced by title ID 216. Thetransaction date may include a specific date and time the transactionoccurred, whereas the transaction type may, for example, indicatewhether the transaction was a full purchase, a rental, part of asubscription plan, or comprised another type of transaction. Themetadata might include information similar to metadata 117 from FIG. 1,such as titles, genre classifications, ratings, and other data. Digitalreceipt 285 may also optionally contain information regarding keychest260, such as a keychest URL or alternatively information about a serverused to register the digital receipt 285 in the form of a URL or similarreference data. While the majority of the data stored in digital receipt285 may be protected with encryption, the title metadata portion oftransaction info 287 might be presented in an unencrypted plain textform, allowing digital receipts to be easily identified by users. Asshown in FIG. 2, portions of digital receipt 285 are encrypted with thepublic key of keychest 260, where keychest 260 can use keychest privatekey 265 to decrypt the encrypted portions, but other protection methodsusable by keychest 260 may also be utilized. In addition, portions ofdigital receipt 285 may also be digitally signed by the issuing mediadistributor 270 so that keychest 260 can confirm that digital receipt285 was duly issued by an authorized media distributor.

Once digital receipt 285 is safely stored in backup storage 289 andconsumer database 263 of keychest 260, the user of client 280 isprotected from the loss of universal file 240, the loss of DRM license273, and the loss or changing of client 280 and/or media distributor270. The user merely needs to retrieve digital receipt 285 from backupstorage 289 and resubmit it to either keychest 260, media distributor270, or another media distributor having an established relationshipwith keychest 260. Once digital receipt 285 is directly submitted orforwarded to keychest 260, keychest 260 can validate the receipt using,as appropriate, keychest private key 265 to decrypt the encryptedportion of the digital receipt 285 and/or the public key of the mediadistributor 270 to validate the signature described above, and processany relevant business rules to approve or deny a query or request. Ifthe query or request is approved, a media distributor may retrieve thecorresponding Keyinfo file to authorize resending universal file 240and/or to generate new DRM licenses including the title key for theuser.

While from the user's point of view, it may be ideal for all mediadistributors to provide any demanded Keyinfo file for any submitteddigital receipt, limited distribution agreements between different mediadistributors and title owners may restrict the range of KeyInfo filesdeliverable by any single media distributor. Specifically, distributordatabase 267 may dictate access privileges to specific KeyInfo filesaccording to the identity of a querying media distributor. In the caseof media distributor 270, this would correspond to distributor ID 271,which might be provided as part of the HTTPS or TLS handshakingprocedure prior to establishing secure communications with keychest 260via provider API 257.

Moreover, while the user might prefer that all media distributors offerthe downloading of universal file 240 or the generation of a new DRMlicense for free, media distributors must also consider expenses such asserver and network maintenance, customer service, and distributioncontracts. Thus, while some media distributors might offer freereactivation through digital receipts to encourage usage of theirparticular online services, other media distributors might charge a feefor redeeming digital receipts to cover the costs of bandwidth, servermaintenance, customer support, and acquiring and renewing distributionrights and content licenses. These considerations might be encapsulatedwithin business rules implemented by keychest 260 or by individual mediadistributors, flexibly independent of the core key storing anddistributing functions of the CKR, keychest 260.

FIG. 3 presents a system for obtaining protected digital rightsmanagement (DRM) licenses through an interoperable keychest forinteroperability between different DRM systems, according to oneembodiment of the present invention. Environment 300 of FIG. 3 includeskeychest 360, media distributors 370 a-370 b, clients 380 a-380 b,shared client ID 386, and shared client ID verification server 390.Keychest 360 includes KeyInfo database 362, consumer database 363,transaction database 364, distributor public key database 366,distributor database 367, offer database 368, preparer database 369, andprovider API 357. Media distributor 370 a includes native DRM server 372a. Media distributor 370 b includes native DRM server 372 b. Client 380a includes universal file 340, DRM license 373 a, and native DRM client382 a. Universal file 340 includes title ID 316, metadata 317, encryptedtitle 345, and keychest URL 346. DRM license 373 a includes title ID316, encrypted title key 374 a, and client ID 381. Client 380 b includesuniversal file 340, DRM license 373 b, and native DRM client 382 b. DRMlicense 373 b includes title ID 316, encrypted title key 374 b, andclient ID 381. With regards to FIG. 3, it should be noted that keychest360 corresponds to keychest 260 from FIG. 2, that media distributors 370a-370 b correspond to media distributor 270, and that clients 380 a-380b correspond to client 380.

While the concept of using a digital receipt for interoperabilitybetween different media distributors has been explained in some detailin FIG. 2 above, FIG. 3 presents an alternative method ofinteroperability between different media distributors where a universalfile is merely copied between different clients and used to obtain a newDRM license applicable to the new client, even if the different mediadistributors use different DRM systems or schemas.

For example, assume that the user of client 380 a has already purchaseduniversal file 340, which also results in the acquisition of anassociated DRM license 373 a. Additionally, a record of the purchase isrecorded in transaction database 364, including the identity of thepurchaser, shared client ID 386. As previously discussed, shared clientID 386 might use an identification scheme such as an OpenID. By using aDRM system or schema supported by native DRM client 382 a and native DRMserver 372 a, the user of client 380 a can now easily consume andplayback and enjoy encrypted title 345 on client 380 a. However, theuser of client 380 a may have several different clients or devices formedia consumption, with some clients more suitable for certainsituations than others. For example, client 380 a might represent apersonal computer of the user, whereas client 380 b might represent avideogame console of the user. The user may wish to view universal file340 on client 380 b rather than client 380 a if, for example, thevideogame console happens to be connected to a high-end home theatersystem in the living room, whereas the personal computer happens to berelegated to the den with tinny computer speakers and a small LCDscreen. Alternatively, client 380 b might represent a portable mediadevice of the user, where the user wants to view universal file 340while flying on a business trip.

Traditionally, transferring media files between different devicesutilizing different DRM systems has been difficult or impossible, asproprietary closed system DRM formats tend to introduceincompatibilities preventing full interoperability. In addition to DRMinteroperability challenges, media container formats and compressionalgorithms may result in even unprotected content not be playable ondifferent platforms.

However, the introduction of the universal file concept as shown in FIG.3 may help to largely address this concern among digital mediaconsumers. As shown in FIG. 3, after the purchase of universal file 340from client 380 a, it is copied directly as-is to client 380 b, asevidenced by the identical contents between the two instances ofuniversal file 340 within client 380 a and client 380 b. Alternatively,universal file 340 might be first copied to an intermediary storagelocation, such as a USB storage device, before being copied to client380 b. Since DRM license 373 a only works with the DRM system supportedby native DRM client 382 a and native DRM server 372 a, DRM license 373a is of no use to client 380 b. However, with the assistance of keychest360, client 380 b can obtain DRM license 373 b from media distributor370 b, even though client 380 b and media distributor 370 b utilize adifferent DRM system supported by native DRM server 372 b and DRM client382 b.

After receiving universal file 340, client 380 b may query mediadistributor 370 b for DRM license 373 b. Client 380 b may also provideidentifying credentials associated with shared client ID 386, such as ausername and password. Media distributor 370 b may then verify theidentity of the user by relaying the identifying credentials to sharedclient ID verification server 390.

Once the identity of client 380 b is confirmed, media distributor 370 bmay query keychest 360 via provider API 357 to confirm whether the useridentified by shared client ID 386 has rights associated with universalfile 340. Thus, keychest 360 may examine transaction database 364 toconfirm the existence of a previous transaction with media distributor370 a involving the purchase of universal file 340 by the same useridentified using shared client ID 386. If transaction database 364instead reported no matching results associated with shared client ID386 and universal file 340 or that the transaction type was merely arental rather than a purchase, keychest 360 may stop processing andreturn that permission was denied. Distributor database 367 may also beconsulted to determine whether media distributor 370 b has an agreementin place for the distribution of the relevant KeyInfo file associatedwith universal file 340 from KeyInfo database 362. Additionally, aspreviously discussed, various business rules might be enforced bykeychest 360. For example, to prevent universal file distribution abuse,a global limit of 5 different clients might be supported for any singlepurchase tied to an identifiable user, with users requiring more than 5concurrently active DRM licenses addressed by customer service on acase-by-case basis. Similarly, a global limit of 5 different identitiesmight be supported to identify the same consumer.

Assuming keychest 360 confirms a qualifying transaction withintransaction database 364 and any and all other business rules are met tosatisfaction, keychest 360 may retrieve the associated KeyInfo file fromKeyInfo database 362, providing media distributor 370 b a transcribedKeyInfo file using a public key of media distributor 370 b, aspreviously described. Media distributor 370 b may then use thetranscribed KeyInfo file to generate DRM license 373 b using native DRMserver 372 b and provide DRM license 373 b to native DRM client 382 b inclient 380 b. Thus, the user of client 380 b is able to consumeuniversal file 340 by retrieving DRM license 373 b, which comprises amuch smaller download size than having to download universal file 340again, providing almost instant playback and allowing the user to enjoyuniversal file 340 on the high-end home theater system or on theportable media device.

Alternatively, instead of routing a digital receipt through a mediadistributor as an intermediary, client 380 b may directly retransmit adigital receipt to keychest 360 if keychest 360 provides a direct clientinterface for requesting registered media. Individual keychests mayprovide this functionality at their own discretion. As previouslydiscussed, the digital receipt acts as a proof of the transaction, andtherefore can be retransmitted back to keychest 360 to obtain access tothe original media or licenses granted by the original transaction. Ifkeychest 360 does support such direct requests from client 380 b, and ifkeychest 360 determines that client 380 b is privileged to access therequested registered media as detailed above, then keychest 360 candirect client 380 b to an appropriate media distributor capable ofserving the requested registered media.

For example, keychest 360 may first determine a list of privileged mediadistributors using distributor database 367, finding all third partymedia distributors having distribution rights or distribution privilegesfor the requested registered media, for example universal file 340.Then, the user of client 380 b might be prompted to select from the listof providers to be redirected to a particular third party mediadistributor. After the user of client 380 b is redirected to theparticular third party media distributor, for example media distributor370 b, then keychest 360 may forward to media distributor 370 b averification that the user of client 380 b is authorized to retrieve therequested universal file 340 and/or any associated DRM licenses. Asbefore, this verification may involve verifying a submitted digitalreceipt against registered digital receipts in consumer database 363 andapplying any applicable business rules. After that, the processcontinues as normal, as if the user submitted the digital receipt to themedia distributor instead of the CKR. Thus, media distributor 370 b maytherefore provide DRM license 373 b to client 380 b for consuminguniversal file 340.

Additionally, this process of sharing universal files and obtainingdifferent DRM licenses could be used to offer friends and associatesrecommended media files without the need for them to re-downloadassociated universal files. For example, the user of client 380 a mayprovide the user of client 380 b a copy of universal file 340, perhapsthrough a USB storage device. However, since client 380 b does not knowthe private login details of the user of client 380 a, client 380 b willbe unable to provide login credentials for shared client ID 386,allowing media distributor 370 b to ascertain that the user of client380 b is not the same as the user of client 380 a, the originalpurchaser of the copied universal file 340. Instead, media distributor370 b might display an offer for executing a new transaction to obtain aDRM license for universal file 340, unlocking it for instant playback.Additionally, although two separate media distributors are shown in FIG.3, this process could also apply to clients using the same mediadistributor.

As shown in FIG. 3, each media distributor can provide the exact sameuniversal file for a particular media title, even if different DRMsystems or schemas are used. With keychest 360 functioning as a centralrights clearinghouse and shared client ID verification server 390verifying the identity of unique users across providers, mediadistributors can provide interoperable solutions with minimal additionaleffort and reengineering of existing DRM systems. This allows users toeasily transport universal files between different devices and mediadistributors, with only a quick retrieval of a new DRM license requiredto playback copied universal files.

FIG. 4a presents a system for playback of protected media using aninteroperable keychest independent of an original issuing mediadistributor, according to one embodiment of the present invention.Environment 400 of FIG. 4a includes keychest 460, media distributor 470,client 480, display 488, backup storage 489, and shared client IDverification server 490. Media distributor 470 includes universal file440 and DRM license 473. Client 480 includes client media application483. Backup storage 489 includes digital receipt 485. With regards toFIG. 4a , it should be noted that keychest 460 corresponds to keychest260 from FIG. 2, that media distributor 470 corresponds to mediadistributor 270, that client 480 corresponds to client 280, and thatbackup storage 489 corresponds to backup storage 489.

As previously discussed, there may be situations where a user mayforfeit, voluntarily or involuntarily, access to purchased universalfiles and associated DRM licenses. Voluntary forfeiting might includechanging client devices or media distributors. Involuntary forfeitingmight include catastrophic hardware failures such as a failed hard diskdrive, or user error such as accidentally deleting a file. Since eachdigital transaction is accompanied with a mandatory digital receiptunder user control, as shown in FIG. 2, the user has full discretion toplan for such contingencies independently of the original mediadistributor. For example, if the user diligently registers a digitalreceipt online with an associated keychest and kept a safe backup, theuser merely needs to resubmit the digital receipt to regain access tothe associated universal file and DRM license.

For example, assume that the user of client 480 suffered through acatastrophic hard disk drive failure. The user replaces the hard diskdrive of client 480 and reinstalls client media application 483 forinterfacing with media distributor 470 again. Since the hard drivestored the user's media library of universal files and DRM licenses, theuser of client 480 seeks to regain access to his old media library.Thankfully, the user kept copies of the digital receipts within backupstorage 489, which might comprise a USB storage device or an onlinee-mail provider, as previously discussed. Additionally, as indicated inFIG. 4a , the user registered digital receipt 485 online with keychest460, so that digital receipt 485 may be stored within a userauthentication database of keychest 460.

Thus, the user of client 480 merely provides digital receipt 485retrieved from backup storage 489 to media distributor 470, along withuser credentials for verifying with media distributor 470, oralternatively a shared user credential for verifying with shared clientID verification server 490. Media distributor 470, after consulting withkeychest 460, may then provide universal file 440 and DRM license 473back to client 480. Additionally, media distributor 470 might alsoprovide a batch transfer of any other universal files and DRM licenseshaving properly registered digital receipts within keychest 460 matchingthe user credentials provided by client 480 and duly verified by mediadistributor 470 or shared client ID verification server 490. This batchtransfer may save the user considerable time and effort if severaldigital receipts are to be submitted, which may be the case after acatastrophic hardware failure. Several business rules may come into playin this model as to address possible abuse, ensure proper functioning ofthe system, or offer additional services to the consumer.

Additionally, this same mechanism can provide users a kind of insuranceagainst the failure or reorganization of their favorite mediadistributors. If, for example, the media distributor that client 480usually patronizes suddenly goes out of business, as long as the user ofclient 480 kept a backup of digital receipts and registered the digitalreceipts with keychest 460, the user can easily migrate to another mediadistributor such as media distributor 470 of FIG. 4a . In this manner,many long standing user concerns regarding the permanence of DRMprotected digital media may be effectively resolved.

FIG. 4b presents a system for redemption of secondary protected mediausing an interoperable keychest, according to one embodiment of thepresent invention. Environment 400 of FIG. 4b includes keychest 460,media distributor 470, clients 480 a-480 b, displays 488 a-488 b, mediadisc 491, and media box code 492. Media distributor 470 includesuniversal file 440 b and DRM licenses 473 a-473 b. Client 480 a includesclient media application 483 a. Media disc 491 includes universal file440 a. With regards to FIG. 4b , it should be noted that keychest 460corresponds to keychest 260 from FIG. 2, that media distributor 470corresponds to media distributor 270, that clients 480 a-480 bcorrespond to client 280, and that displays 488 a-488 b correspond todisplay 288.

Although the discussion of universal files thus far has been generallylimited to online digital distribution, universal files may also haveapplications with physical retail media as well. For example, media disc491 might comprise a Blu-ray disc purchased through retail channels.Besides storing the standard Blu-ray movie data, corresponding universalfiles might also be included for use on a personal computer or forportable media devices. Media box code 492 might then comprise a uniquenumeric or alphanumeric sequence printed within the inside liner orunder a hidden scratch panel, usable to redeem universal file 440 a forplayback by retrieving an applicable DRM license. In this sense, mediabox code 492 may act as an anonymous user identifier, as keychest 460can limit the number of redemptions for any single media box code usingbusiness rules.

Thus, the user of client 480 a, a notebook PC, might insert media disc491 into a Blu-ray drive, where the user is prompted whether he wishesto redeem universal file 440 a. If the user answers yes, he may beprompted to enter media box code 492, which is sent along with anyidentifying metadata contained in universal file 440 a to mediadistributor 470. Media distributor 470 may then consult with keychest460 to determine whether media box code 492 is valid and/or has reacheda maximum redemption count. For example, a business rule at keychest 460might enforce that each valid media box code may only provide for amaximum of three (3) redemptions, again to prevent the potential abuseof indiscriminate universal file sharing. If keychest 460 answerspositively, then media distributor 470 might provide DRM license 473 aso that the user of client 480 a can view the movie at full resolutionon display 488 a of the notebook PC.

Additionally, a compelling sales point for media disc 491 might includethe ability to copy the movie from media disc 491 to various portabledevices. Thus, client 480 a might additionally request for a standarddefinition (SD) 720×480 version of the movie for playback on portabledevices with standard definition displays. Using the same media box code492 and the same metadata from universal file 440 a, media distributor470 might again query keychest 460 for a special standard definitionversion KeyFile for portable devices, which is duly returned and used togenerate universal file 440 b and DRM license 473 b, which can then betransferred to client 480 b for playback on display 488 b. Moreover, theredemption of box codes can be associated with a client or consumer IDand recorded within relevant databases in keychest 460, as previouslydone with online transactions. Alternatively, various universal filesalready formatted for popular media devices might be embedded on mediadisc 491 such that only a corresponding DRM license needs to beretrieved, reducing download time.

FIG. 5 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which online registration of adigital receipt associated with a content can be used with a central keyrepository (CKR) to enable interoperable playback of the contentindependent of an initial distributor. Certain details and features havebeen left out of flowchart 500 that are apparent to a person of ordinaryskill in the art. For example, a step may comprise one or more substepsor may involve specialized equipment or materials, as known in the art.While steps 510 through 570 indicated in flowchart 500 are sufficient todescribe one embodiment of the present invention, other embodiments ofthe invention may utilize steps different from those shown in flowchart500.

Referring to step 510 of flowchart 500 in FIG. 5 and environment 200 ofFIG. 2, step 510 of flowchart 500 comprises client 280 performing atransaction to obtain from media distributor 270 universal file 240including encrypted title 245 encrypted by a title key corresponding toan unencrypted version of encrypted title key 274, or title key 132 fromFIG. 1, and DRM license 273 usable with media distributor 270 to accessthe unencrypted version of encrypted title key 274. This procedure hasalready been discussed in some detail, but briefly, client 280 usesclient media application 283 to browse a digital storefront and selectuniversal file 240 to commence a transaction. In response, mediadistributor 270 provides universal file 240 and the associated DRMlicense 273 to client 280 via interactions with keychest 260, native DRMserver 272, and native DRM client 282.

Referring to step 520 of flowchart 500 in FIG. 5 and environment 200 ofFIG. 2, step 520 of flowchart 500 comprises client 280 receiving adigital receipt 285 associated with encrypted title 245, wherein digitalreceipt 285 includes information relevant to the transaction of step510. As shown in FIG. 2, this information includes client ID 281,distributor ID 271, shared client ID 286, consumer ID 284, title ID 216,and transaction info 287, but alternative embodiments may use other dataarrangements. Additionally, as shown in FIG. 2, portions of digitalreceipt 285 are provided encrypted by the public key of keychest 260.

Referring to step 530 of flowchart 500 in FIG. 5 and environment 200 ofFIG. 2, step 530 of flowchart 500 comprises client 280 transmittingdigital receipt 285 received from step 520 to keychest 260 for an onlineregistration of digital receipt 285 within consumer database 263. Asshown in FIG. 2, client 280 transfers digital receipt 285 using clientAPI 256 of keychest 260, which may expose web services accessible bySOAP over HTTPS.

Referring to step 540 of flowchart 500 in FIG. 5 and environment 400 ofFIG. 4a , step 540 of flowchart 500 comprises client 480 forfeitingaccess to DRM license 473 corresponding to DRM license 273 retrievedfrom step 510. As previously discussed, this might be a voluntaryforfeiture by changing media distributors or clients, or involuntarilyby, for example, hardware failures resulting in data loss. In eithercase, client 480 will no longer have direct access to DRM license 473after step 540. However, client 480 may still retain direct access touniversal file 440 corresponding to universal file 240 retrieved fromstep 510, contrary to the access state shown in FIG. 4 a.

Referring to step 550 of flowchart 500 in FIG. 5 and environment 400 ofFIG. 4a , step 550 of flowchart 500 comprises client 480 transmittingdigital receipt 485 to media distributor 470, where digital receipt 485corresponds to digital receipt 285 retrieved from step 520, and whereinmedia distributor 470 is a different entity from media distributor 270accessed during steps 510-520. After step 550, media distributor 470 mayscrutinize digital receipt 485 for validity by querying keychest 460 forprior evidence of online registration of the same digital receipt 485.Keychest 460 may also apply various business rules before providing arelevant KeyInfo file for generating a new DRM license.

Referring to step 560 of flowchart 500 in FIG. 5 and environment 400 ofFIG. 4a , step 560 of flowchart 500 comprises client 480 receiving frommedia distributor 470 DRM license 473 usable with media distributor 470to access a title key for decoding universal file 440, where the titlekey is the same as the title key used in step 510 for encrypted title245. As previously discussed, after step 550, keychest 460 may alsoverify the identity of client 480, the authorization of mediadistributor 470, and any applicable business rules before providing therelevant KeyInfo file to allow step 560 to proceed.

Referring to step 570 of flowchart 500 in FIG. 5 and environment 400 ofFIG. 4a , step 570 of flowchart 500 comprises client media application483 of client 480 initiating a playback of universal file 440 on display488 decrypted using the title key obtained by using DRM license 473received from step 560 with media distributor 470. Since at the end ofstep 560, client 480 has access to both universal file 440 and DRMlicense 473, client 480 only needs to use the native DRM solutionimplemented by client media application 483 and media distributor 470 toaccess the title key embedded in DRM license 473 for decoding theencrypted title within universal file 440, which may then be consumed oroutput to display 488 for viewing by a user of client 480.

FIG. 6 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which media contents may bedistributed to media distributors. Certain details and features havebeen left out of flowchart 600 that are apparent to a person of ordinaryskill in the art. For example, a step may comprise one or more substepsor may involve specialized equipment or materials, as known in the art.While steps 610 through 670 indicated in flowchart 600 are sufficient todescribe one embodiment of the present invention, other embodiments ofthe invention may utilize steps different from those shown in flowchart600.

Referring to step 610 of flowchart 600 in FIG. 6 and environment 100 ofFIG. 1, step 610 of flowchart 600 comprises universal file packager 135of preparer 130 obtaining a first key, keychest public key 122, a secondkey, title key 132, and title 115. As shown in FIG. 1, keychest publickey 122 is retrieved from a trusted third party, certificate authority120, where certificate 121 is used to validate the binding betweenkeychest public key 122 and keychest 160. However, alternativeapproaches with or without PKI may also be utilized. Preparer 130 mayitself generate title key 132, using key generator 131. Title 115 isretrieved from title owner 110, which may be securely retrieved bydigital or physical means. Title owner 110, as previously noted, mayalso be owned by the same entity as preparer 130.

Referring to step 620 of flowchart 600 in FIG. 6 and environment 100 ofFIG. 1, step 620 of flowchart 600 comprises universal file packager 135of preparer 130 encrypting title key 132 using keychest public key 122,both obtained from step 610, to generate encrypted title key 152. Sinceencrypted title key 152 can only be decrypted using keychest private key165, only keychest 160 can access title key 132 from encrypted title key152, as long as keychest 160 protects the privacy of keychest privatekey 165. As previously discussed, 2048 bit RSA keys in accordance withPublic-Key Cryptography Standards #1 (PKCS#1) may be utilized for theasymmetric key encryption of step 620.

Referring to step 630 of flowchart 600 in FIG. 6 and environment 100 ofFIG. 1, step 630 of flowchart 600 comprises universal file packager 135of preparer 130 encrypting title 115 using title key 132, both obtainedfrom step 610, to generate encrypted title 145. As previously discussed,a balanced compromise such as the Advanced Encryption Standard (AES) mayused for the symmetric key encryption of step 630 to provide reasonablystrong security with fast decoding times.

Referring to step 640 of flowchart 600 in FIG. 6 and environment 100 ofFIG. 1, step 640 of flowchart 600 comprises universal file packager 135of preparer 130 generating KeyInfo file 150 including encrypted titlekey 152 generated from step 620. As shown in FIG. 1, KeyInfo file 150may also include various metadata and identifying information, such astitle owner ID 111 and title ID 116, to aid in indexing and retrievingKeyInfo file 150 within KeyInfo database 162.

Referring to step 650 of flowchart 600 in FIG. 6 and environment 100 ofFIG. 1, step 650 of flowchart 600 comprises universal file packager 135of preparer 130 generating universal file 140 including encrypted title145 generated from step 630 and keychest URL 146 for a central keyrepository (CKR), keychest 160. Keychest URL 146 represents a networkaddress directing to keychest 160, and as previously discussed, aredirection server might also be used as an intermediary. Although FIG.1 uses a URL as the network address to interface with web based SOAPover HTTPS, alternative embodiments might use other protocols to reach anetwork address in a secure manner. As shown in universal file 140,additional metadata and identifying information, such as title ID 116and metadata 117, may also be included within universal file 140 to aidin the identification and cataloging of universal file 140.

Referring to step 660 of flowchart 600 in FIG. 6 and environment 100 ofFIG. 1, step 660 of flowchart 600 comprises universal file packager 135of preparer 130 providing KeyInfo file 150 for storage in KeyInfodatabase 162 of keychest 160. As shown in FIG. 1, this may be by usingSOAP web services exposed over HTTPS by preparer API 161 of keychest160. After keychest 160 authenticates preparer 130 as an authorizedpreparer and accepts KeyInfo file 150, it may be filed within KeyInfodatabase 162 for future retrieval by media distributors, the KeyInfofile prepared in a transcribed form by using a public key fromdistributor public key database 166 corresponding to a retrieving mediadistributor. In this case, each media distributor generates its ownprivate/public key pairs and distributes public keys to keychest 160,but as previously discussed, keychest 160 could also generateprivate/public key pairs and distribute public keys to mediadistributors.

Referring to step 670 of flowchart 600 in FIG. 6 and environment 100 ofFIG. 1, step 670 of flowchart 600 comprises universal file packager 135of preparer 130 providing universal file 140 to media distributor 170.Before step 670, suitable distribution arrangements between the partiesshould exist. More specifically, media distributor 170 should have anagreement to distribute title 115 from title owner 110, and distributordatabase 167 of keychest 160 should grant permission for mediadistributor 170 to access the corresponding KeyInfo file 150 fromkeychest 160. Although only a single media distributor is shown in FIG.1, in alternative embodiments, title owner 110 may have agreements withseveral different media distributors, sending a universal file generatedby a preparer to each of the different media distributors. As with titleowner 110 providing title 115 to preparer 130, universal file 140 can beprovided to media distributor 170 in any suitable secure method ofcommunication, physically or digitally. Once universal file 140 isdistributed to authorized media distributors such as media distributor170, universal file 140 may be served to requesting clients or usersthrough digital storefronts or other presentation methods.

FIG. 7 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which a central key repository(CKR) can provide content access authorizations to media distributors.Certain details and features have been left out of flowchart 700 thatare apparent to a person of ordinary skill in the art. For example, astep may comprise one or more substeps or may involve specializedequipment or materials, as known in the art. While steps 710 through 750indicated in flowchart 700 are sufficient to describe one embodiment ofthe present invention, other embodiments of the invention may utilizesteps different from those shown in flowchart 700.

Referring to step 710 of flowchart 700 in FIG. 7 and environment 100 ofFIG. 1, step 710 of flowchart 700 comprises keychest 160 receivingKeyInfo file 150 including encrypted title key 152, title ID 116, andtitle owner ID 111. As shown in FIG. 1, step 710 may be accomplished byexposing SOAP web services by HTTPS through preparer API 161 for use bypreparer 130. Once keychest 160 receives KeyInfo file 150, it maycatalogue it within KeyInfo database 162 for future retrieval by mediadistributors.

Referring to step 720 of flowchart 700 in FIG. 7 and environment 100 ofFIG. 1, step 720 of flowchart 700 comprises keychest 160 decryptingencrypted title key 152 within KeyInfo file 150 received from step 710using keychest private key 165 to retrieve title key 132. Sinceencrypted title key 152 was encrypted using keychest public key 122,keychest 160 only needs to use keychest private key 165, which italready has within memory 159, for decryption.

Referring to step 730 of flowchart 700 in FIG. 7 and environment 100 ofFIG. 1, step 730 of flowchart 700 comprises keychest 160 receiving, frommedia distributor 170, a key request including title ID 116. Forexample, media distributor 170 may receive a request from a client toserve universal file 140. However, to enable playback of universal file140, KeyInfo file 150 is also needed for decrypting. Since universalfile 140 includes title ID 116, media distributor 170 can request aKeyInfo file matching title ID 116 from keychest 160 to fulfill therequest from the client.

Referring to step 740 of flowchart 700 in FIG. 7, environment 100 ofFIG. 1, and environment 200 of FIG. 2, step 740 of flowchart 700comprises keychest 160 encrypting title key 132 decrypted from step 720using a provider public key stored in distributor public key database166 to generate encrypted title key 252 of transcribed KeyInfo file 251,wherein the provider public key corresponds to a public portion of aprivate/public asymmetric key pair including distributor private key175. This provider public key may have been provided to keychest 160 inadvance through a trusted third party such as certificate authority 120.Step 740 “transcribes” KeyInfo file 150 to transcribed KeyInfo file 151,corresponding to transcribed KeyInfo file 251 in FIG. 2. The term“transcribe” is used here in the sense that title key 132 transitionsfrom being encrypted by keychest public key 122 as encrypted title key152 to being encrypted by the provider public key as encrypted title key252, so that only the associated media distributor 270 havingdistributor private key 275 can access the original title key 132 fromtranscribed KeyInfo file 251.

Referring to step 750 of flowchart 700 in FIG. 7 and environment 100 ofFIG. 1, step 750 of flowchart 700 comprises keychest 160 transmittingencrypted title key 252 generated from step 740 corresponding to anencrypted title key contained within transcribed KeyInfo file 151 tomedia distributor 170 in response to step 730, the receiving of the keyrequest. After step 750, media distributor 170 can use distributorprivate key 175 to access the original title key 132 for integratingwithin native DRM system 172 to enable access and playback of universalfile 140.

FIG. 8 shows a flowchart describing the steps, according to oneembodiment of the present invention, by which a media distributor canobtain access to content access authorizations from a central keyrepository (CKR). Certain details and features have been left out offlowchart 800 that are apparent to a person of ordinary skill in theart. For example, a step may comprise one or more substeps or mayinvolve specialized equipment or materials, as known in the art. Whilesteps 810 through 850 indicated in flowchart 800 are sufficient todescribe one embodiment of the present invention, other embodiments ofthe invention may utilize steps different from those shown in flowchart800.

Referring to step 810 of flowchart 800 in FIG. 8 and environment 200 ofFIG. 2, step 810 of flowchart 800 comprises media distributor 270receiving a user request from client 280 for access to encrypted title245 within universal file 240, the request including title ID 216. Forexample, client media application 283 may communicate with mediadistributor 270 to present an e-commerce storefront to the user ofclient 280. The user of client 280 may browse the e-commerce storefrontand commence an agreement to purchase a license for viewing digitalmedia identified by title ID 216, or encrypted title 245 withinuniversal file 240. This agreement may then be sent as a user request tobe transmitted to media distributor 270.

Referring to step 820 of flowchart 800 in FIG. 8 and environment 200 ofFIG. 2, step 820 of flowchart 800 comprises media distributor 270transmitting a key request to keychest 260 in response to step 810, thekey request including title ID 216. By using provider API 257, mediadistributor 270 can send a key request to keychest 260 for a KeyInfofile corresponding to title ID 216. As with client API 256, provider API257 may be exposed to the outside by web services via SOAP over HTTPS.

Referring to step 830 of flowchart 800 in FIG. 8 and environment 200 ofFIG. 2, step 830 of flowchart 800 comprises media distributor 270receiving transcribed KeyInfo file 251 including encrypted title key 252in response to step 820. Transcribed KeyInfo file 251 may be receivedusing the same secure connection established in step 820. Sinceencrypted title key 252 within transcribed KeyInfo file 251 is encryptedusing a public key of media distributor 270, distributor private key 275may be readily used to decrypt encrypted title key 252.

Referring to step 840 of flowchart 800 in FIG. 8 and environment 200 ofFIG. 2, step 840 of flowchart 800 comprises media distributor 270decrypting encrypted title key 252 of transcribed KeyInfo file 251received from step 830 to retrieve a title key corresponding to titlekey 132 from FIG. 1. This title key can eventually be used to decryptencrypted title 245 associated with title ID 216 within universal file240.

Referring to step 850 of flowchart 800 in FIG. 8 and environment 200 ofFIG. 2, step 850 of flowchart 800 comprises media distributor 270providing DRM license 273 for encrypted title 245 of universal file 240to client 280, DRM license 273 using the title key from step 840 asencrypted title key 274 protected by native DRM server 272. Step 850 isinitiated in response to step 810 and for use by client 280 to decryptencrypted title 245 using the title key from step 840 retrievable fromDRM license 273 using native DRM client 282. After client 280 receivesDRM license 273, it can use native DRM client 282 to remove theprotection from encrypted title key 274, gaining access to the title keyfrom step 840 to decrypt encrypted title 245 within universal file 240.After decrypting, client 280 may, for example, direct the decryptedcontents over protected media path decoding engine 299 for playback ondisplay 288, so that the user of client 280 can enjoy the contentrequested from step 810.

From the above description of the invention it is manifest that varioustechniques can be used for implementing the concepts of the presentinvention without departing from its scope. Moreover, while theinvention has been described with specific reference to certainembodiments, a person of ordinary skills in the art would recognize thatchanges can be made in form and detail without departing from the spiritand the scope of the invention. As such, the described embodiments areto be considered in all respects as illustrative and not restrictive. Itshould also be understood that the invention is not limited to theparticular embodiments described herein, but is capable of manyrearrangements, modifications, and substitutions without departing fromthe scope of the invention.

What is claimed is:
 1. A method for use by a client computer having ahardware processor and a non-transitory storage medium, the methodcomprising: performing a transaction, using the hardware processor ofthe client computer with a first distributor, to obtain access to afirst media content; receiving, using the hardware processor of theclient computer from the first distributor, a digital receipt associatedwith the first media content, wherein the digital receipt includesinformation relevant to the transaction, and wherein the digital receiptis registered with a key repository storing keys for accessing aplurality of media contents; storing, using the hardware processor ofthe client computer, the digital receipt in the non-transitory storagemedium; transmitting, using the hardware processor of the clientcomputer, the digital receipt retrieved from the non-transitory storagemedium for a verification of the digital receipt by the key repositoryas a proof of the transaction; and obtaining, using the hardwareprocessor of the client computer and in response to the transmitting ofthe digital receipt and the verification of the digital receipt by thekey repository, a first digital rights management (DRM) license with akey for playing back the first media content, the key being stored inthe key repository and associated with one of the plurality of mediacontents.
 2. The method of claim 1, wherein the digital receipt includesdata regarding the client.
 3. The method of claim 1, wherein the digitalreceipt includes data regarding the first distributor.
 4. The method ofclaim 1, wherein the digital receipt includes metadata regarding thefirst media content and data regarding the transaction including atransaction type and a transaction date.
 5. The method of claim 1,wherein the digital receipt includes data regarding the key repository.6. The method of claim 1, wherein the digital receipt is registered bythe first distributor.
 7. The method of claim 1, wherein the digitalreceipt is registered by the client.
 8. The method of claim 1, whereinthe key is for playing back a copy of the first media content obtainedfrom the first distributor.
 9. The method of claim 1, wherein the key isfor playing back a copy of the first media content obtained from asecond distributor.
 10. A client device comprising: a non-transitorystorage medium; and a hardware processor configured to: perform atransaction with a first distributor to obtain access to a first mediacontent; receive, from the first distributor, a digital receiptassociated with the first media content, wherein the digital receiptincludes information relevant to the transaction, and wherein thedigital receipt is registered with a key repository storing keys foraccessing a plurality of media contents; store the digital receipt inthe non-transitory storage medium; transmit the digital receiptretrieved from the non-transitory storage medium for a verification ofthe digital receipt by the key repository as a proof of the transaction;and obtain, in response to the transmitting of the digital receipt andthe verification of the digital receipt by the key repository, a firstdigital rights management (DRM) license with a key for playing back thefirst media content, the key being stored in the key repository andassociated with one of the plurality of media contents.
 11. The clientdevice of claim 10, wherein the digital receipt includes data regardingthe client.
 12. The client device of claim 10, wherein the digitalreceipt includes data regarding the first distributor.
 13. The clientdevice of claim 10, wherein the digital receipt includes metadataregarding the first media content and data regarding the transactionincluding a transaction type and a transaction date.
 14. The clientdevice of claim 10, wherein the digital receipt includes data regardingthe key repository.
 15. The client device of claim 10, wherein thedigital receipt is registered by the first distributor.
 16. The clientdevice of claim 10, wherein the digital receipt is registered by theclient.
 17. The client device of claim 10, wherein the key is forplaying back a copy of the first media content obtained from the firstdistributor.
 18. The client device of claim 10, wherein the key is forplaying back a copy of the first media content obtained from a seconddistributor.